The Escherichia coli hemolysin, earlier referred to as the hemolysin, is the best-characterized repeats in toxin (RTX) secreted by a type I exoprotein secretion system. The E. coli hemolysin is a significant virulence factor in murine models of peritonitis and ascending urinary tract infection, which suggests it is likely to be an important cytotoxin in human, extraintestinal E. coli diseases. Among E. coli or Salmonella strains there are no known examples of strict RTX leukotoxins in which lytic activity is limited to white blood cells. The general gene organization of the Vibrio cholerae RTX locus is similar to that seen with either of the E. coli hly and ehx loci with C, B, and D RTX homologs, clearly indicating it is a member of the RTX family. The hemolysin occurs less frequently in cystitis strains and only rarely among normal fecal strains. Among the extraintestinal E. coli isolates, the hlyCABDgenes were among the first virulence factors localized to unique, tRNA-associated segments of E. coli chromosomes. The hemolysin genes were eventually linked to P-type pilin and cytotoxic necrotizing factor-1 genes. Recent progress with its study has slowed down because of the difficulty in deriving the physical structure of the hemolysin protein or other RTX toxins and establishing its precise cytotoxic mechanism and role in pathogenesis of extraintestinal E. coli disease. Genomic sequencing has revealed that there are additional RTX-like genes found among many different pathogens; perhaps new efforts to discover their functions will aid progress in the RTX toxin field.

80.Schmidt H, Kernbach C, Karch H. 1996. Analysis of the EHEC hly operon and its location in the physical map of the large plasmid of enterohaemorrhagic Escherichia coli O157:H7. Microbiology142:907–914. [PubMed][CrossRef]

The Escherichia coli hemolysin, earlier referred to as the hemolysin, is the best-characterized repeats in toxin (RTX) secreted by a type I exoprotein secretion system. The E. coli hemolysin is a significant virulence factor in murine models of peritonitis and ascending urinary tract infection, which suggests it is likely to be an important cytotoxin in human, extraintestinal E. coli diseases. Among E. coli or Salmonella strains there are no known examples of strict RTX leukotoxins in which lytic activity is limited to white blood cells. The general gene organization of the Vibrio cholerae RTX locus is similar to that seen with either of the E. coli hly and ehx loci with C, B, and D RTX homologs, clearly indicating it is a member of the RTX family. The hemolysin occurs less frequently in cystitis strains and only rarely among normal fecal strains. Among the extraintestinal E. coli isolates, the hlyCABDgenes were among the first virulence factors localized to unique, tRNA-associated segments of E. coli chromosomes. The hemolysin genes were eventually linked to P-type pilin and cytotoxic necrotizing factor-1 genes. Recent progress with its study has slowed down because of the difficulty in deriving the physical structure of the hemolysin protein or other RTX toxins and establishing its precise cytotoxic mechanism and role in pathogenesis of extraintestinal E. coli disease. Genomic sequencing has revealed that there are additional RTX-like genes found among many different pathogens; perhaps new efforts to discover their functions will aid progress in the RTX toxin field.